Lectures
Main course literature:
Proakis J G, Manolakis D G: Digital Signal Processing. Principles, Algorithms and Applications.
4:e edition, Pearson Prentice Hall, ISBN 0-13-187374-1
A short Matlab-Intro (from David Houcque, Northwestern University Illinois)
A short Matlab-summary with useful functions in the course.
Lecture notes:
- Content, Overview;
- Lecture 1; "Intro+Sampling+maths" -
- Lecture 2; "Convolution+properties+stability+correlation functions"
- Lecture 3; "Z-transform+Z-invers+Z-plus-transform+DirektForm II "
- Lecture 4; "Poles and zeros"
- Lecture 5; "Fourier-transform"
- Lecture 6; "Relation Z-transf and Fourier-transf + ideal LP-filter"
- Lecture 7; "Solution to input-output relation, transient+stationary solution"
- Lecture 8; "LTI-system cont, Notch-filter, Linear-Phase filter"s
- Lecture 9; "Sampling in depth, sample rate conversion"
- Lecture 10; "Discrete Fouriertransform, DFT"
- Lecture 11; "Cont Discrete Fouriertransform, DFT"
- Lecture 12; "Structures"
Lecture scripts:
- Scripts; Example scripts used for demonstrations during the lectures.
Lecture videos:
- Lecture 1: Introduction
- Lecture 1: Part A, Part B, slides.
- Lecture 2: Part A, Part B, slides.
- Lecture 3: Part A, Part B, slides.
- Lecture 4: Part A, Part B, slides.
- Lecture 5: Part A, Part B, slides.
- Lecture 6: Part AB, slides.
- Lecture 7: Part A, Part B, slides.
- Lecture 8: Part A, Part B, slides.
- Lecture 9: Part A, Part B, slides.
- Lecture 10: Part A, Part B, slides.
- Lecture 11: Part AB, slides.
- Lecture 12: Part A, Part B, slides.